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Sirt3 deficiency promotes endothelial dysfunction and aggravates renal injury

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  • Anna Pezzotta
  • Luca Perico
  • Daniela Corna
  • Marina Morigi
  • Giuseppe Remuzzi
  • Ariela Benigni
  • Barbara Imberti

Abstract

Sirtuin 3 (SIRT3), the main deacetylase of mitochondria, modulates the acetylation levels of substrates governing metabolism and oxidative stress. In the kidney, we showed that SIRT3 affects the proper functioning of high energy-demanding cells, such as tubular cells and podocytes. Less is known about the role of SIRT3 in regulating endothelial cell function and its impact on the progression of kidney disease. Here, we found that whole body Sirt3-deficient mice exhibited reduced renal capillary density, reflecting endothelial dysfunction, and VEGFA expression compared to wild-type mice. This was paralleled by activation of hypoxia signaling, upregulation of HIF-1α and Angiopietin-2, and oxidative stress increase. These alterations did not result in kidney disease. However, when Sirt3-deficient mice were exposed to the nephrotoxic stimulus Adriamycin (ADR) they developed aggravated endothelial rarefaction, altered VEGFA signaling, and higher oxidative stress compared to wild-type mice receiving ADR. As a result, ADR-treated Sirt3-deficient mice experienced a more severe injury with exacerbated albuminuria, podocyte loss and fibrotic lesions. These data suggest that SIRT3 is a crucial regulator of renal vascular homeostasis and its dysregulation is a predisposing factor for kidney disease. By extension, our findings indicate SIRT3 as a pharmacologic target in progressive renal disease whose treatments are still imperfect.

Suggested Citation

  • Anna Pezzotta & Luca Perico & Daniela Corna & Marina Morigi & Giuseppe Remuzzi & Ariela Benigni & Barbara Imberti, 2023. "Sirt3 deficiency promotes endothelial dysfunction and aggravates renal injury," PLOS ONE, Public Library of Science, vol. 18(10), pages 1-20, October.
    • Handle: RePEc:plo:pone00:0291909
    DOI: 10.1371/journal.pone.0291909
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    1. Luca Perico & Marina Morigi & Cinzia Rota & Matteo Breno & Caterina Mele & Marina Noris & Martino Introna & Chiara Capelli & Lorena Longaretti & Daniela Rottoli & Sara Conti & Daniela Corna & Giuseppe, 2017. "Human mesenchymal stromal cells transplanted into mice stimulate renal tubular cells and enhance mitochondrial function," Nature Communications, Nature, vol. 8(1), pages 1-17, December.
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